Innovative nanosensing methods for lysozyme identification.

Lysozyme (LYZ) is a critical enzyme recognized for its significant antimicrobial properties, playing an integral role in the immune response and being implicated in various diseases, including infections and inflammatory conditions. Traditional detection methods for LYZ, such as enzyme-linked immunosorbent assays (ELISA) and spectrophotometric techniques, often encounter limitations regarding sensitivity, specificity, and time efficiency. In light of these challenges, there has been substantial advancement in the development of novel biosensor technologies over the past two decades, particularly those that incorporate nanomaterials. These innovative biosensors demonstrate enhanced performance, facilitating rapid and accurate detection of LYZ at low concentrations. This paper aims to provide a comprehensive overview of recently developed biosensors specifically for LYZ, highlighting their design, functionality, and applications in clinical diagnostics and research. Unlike previous reviews, we place a distinct emphasis on the clinical importance of LYZ and its role in various diseases, thereby elucidating its significance in health and disease contexts. Additionally, we will explore the implications of advanced detection methods, particularly those utilizing nanomaterials, for enhancing our understanding of LYZ-related pathologies. By focusing on nanoscale detection techniques, which have not been thoroughly addressed in existing literature, we underscore the transformative potential of these biosensors in LYZ detection. This approach not only contributes to improved disease management but also informs therapeutic strategies, setting our review apart from prior works.